Immunological assay for spongiform encephalopathies

ABSTRACT

The invention relates to a method of detecting Transmissable Spongiform Encephalopathies (TSE) in animals, particulary in animal carcasses, using an anti-PrP sc  antibody in an immunological assay. Also disclosed is a diagnostic kit for detecting TSE comprising the same antibody.

[0001] The present invention relates to method of detecting Transmissable Spongiform Encephalopathies and to an immunological assay or test for Transmissable Spongiform Encephalopathies (TSE).

BACKGROUND OF THE INVENTION

[0002] Spongiform Encephalopathies are a group of degenerative neurological diseases. There are a number of examples of Spongiform Encephalopathies including BSE (Bovine Spongiform Encephalopathy), Scrapie Creutzfeldt-Jakob Disease (CJD) Gerstmann-Straussler-Scheinker Syndrome, Kuru, Transmissable Mink Encephalopathy, Chronic Wasting Disease of Mule Deer, Feline Spongiform Encephalopathies and other Spongiform Encephalopathies found in animals such as elk, nyala, greater kudu, gemsbok and tigers It has also been reported that BSE can be transmitted under laboratory conditions to mice and pigs. This crossing of species barriers by the infective agent has led to increased concern that transfer to humans could occur.

[0003] Bovine Spongiform Encephalopathy (BSE) is a degenerative brain disorder of cattle which is popularly known as “mad cow disease” it has a slow incubation period, up to four or five years with symptoms of progressive degeneration of the mental state in cows include loss of coordination and staggering gait, lack of interest in their surroundings, disinterest in feed and water, or unpredictable behaviour, including aggressiveness. Affected cattle show symptoms when they are three to ten years old.

[0004] First identified in Great Britain in November 1986, over 100,000 cases have since been recorded there. Post mortems of affected cattle reveal a characteristic pattern of vacuolation in the brain tissue due to destruction of neural cells and the deposition of unusual protein fibres, that give the brain a spongy (spongiform) texture. Similar spongiform diseases have been recognized in humans (for example, Creutzfeldt-Jakob disease or CJD) for over a century and in sheep (scrapie) for over 200 years. The agent thought to be responsible for BSE and its counterparts is an infective protein known as a prion. The prion is an infective particle comprising protein only and no nucleic acid, the presence of nucleic acid being required in the case of a conventional virus. In Scrapie in particular one protein known as prion protein or PrP^(SC) , has been found to co-purify with infectivity and can produce a Scrapie-like condition in brain cell cultures from other animals, such as hamsters under laboratory conditions. PrP^(SC) is the only known component of the characteristic protein fibres deposited in the brain tissue of Scrapie-infected sheep. This protein, the PrP^(SC) appears to undergo a structural modification, whereas the term PrP^(C) is used in respect of the normal cellular counterpart of PrP^(SC). The natural function of PrP it not known but it appears likely that it has an essential structure or functional role in the organism.

[0005] Recycled animal tissue which had been routinely fed to British dairy cows as a protein supplement has been identified as the source of the infection. It is believed that BSE was originally spread from sheep's brains infected with scrapie and that its spread was accidentally accelerated by the ingestion of brain tissue taken from cows that had become infected with BSE. Therefore, the British Government introduced compulsory destruction of suspect animals and their carcasses beginning in 1988. The feeding of animal tissue to cows was banned in Britain in July 1988.

[0006] Since the initial report of the disease, consumers have feared that it might be transferable to humans through milk or beef products, particularly since Kuru, a related disease is known to be spread by ritualistic cannibalism among New Guinea tribesmen. In late 1990, consumer concern over the transmission of BSE to humans triggered a collapse in the beef market. A similar scare struck Germany in mid-1994.

[0007] In 1996 ten cases of a newly described type of fatal CJD (Variant CJD) were identified. The victims had distinct brain tissue symptoms, were all under the age of 42, and had no hereditary record of the disease. It has been suggested that the victims may have contracted the disease through contact with BSE-infected cattle before the eradication of suspected animals had taken effect. The identification of Variant CJD led to a dramatic drop in beef consumption in Britain, and the banning of British and in some instances Irish beef imports in various countries worldwide.

[0008] Therefore, for both veterinary and economic reasons, there is an urgent need to provide a method for diagnosis and a diagnostic kit to detect infection with BSE, Scrapie and other related Spongiform Encephalopathies in livestock, animal carcasses and meat generally.

OBJECT OF THE INVENTION

[0009] It is therefore an object of the present invention to provide a method of testing cattle. Particularly animal carcasses, for the infective agent responsible for BSE. It is also an object that protection method be rapid, with the result being available in a matter of hours, that it should be cheap, reliable and user-friendly.

[0010] Such a detection method would have the advantage that it would prevent the entry of infected meat into the human food chain, thus eliminating the possibility of humans contracting Variant CJD or other related diseases which may be transmitted by eating infected meat. It has the further advantage that it would restore consumer confidence in meat and meat products, which would be advantageous for both the fanning community and the meat industry in general.

[0011] At present there is no test available which can identify infected meat carcasses or livestock carcasses, and there is no product available which can allay public fears regarding meat consumption.

[0012] The current invention provides an immunological assay for the putative agent PrP^(SC) the rogue prion protein believed to be responsible for Spongiform Encephalopathies.

SUMMARY OF THE INVENTION

[0013] According to the present invention there is provided a method for detecting the putative agent for TSE in animals comprising taking a body tissue sample from an animal, reacting the sample in a immunological assay with a labelled antibody which is capable of reacting with PrP^(SC) and determining the amount of labelled antibody bound to the sample.

[0014] Suitably, the antibody used in the assay is raised against a synthetic peptide sequence having the general formula:

X-(R₁ -Lys- His-R₂)-Ala-Gly-Ala-Ala-Ala-R₃ Gly-Ala-Val-Val-Gly-Gly-Leu-Gly-Gly-Tyr-Met-Leu-Gly-Ser-Ala-Met-Ser-(Arg-Pro-R₄-R₅)-Y

[0015] wherein R₁ is an amino acid residue selected from Met, Leu and Phe;

[0016] R₂ is either Met or Val;

[0017] R₁ is Ala or is absent;

[0018] R₄ and R₅ are independently an amino acid residue selected from Leu. Ile and Met: one or more residues within brackets maybe present or absent with the provisio that if they are present they are attached to the rest of the peptide in sequence; and X and Y may each independently be absent or independently be one or more additional aminio acid residues.

[0019] Particularly preferred are prion specific antibodies raised against one or more of the following sequences:

[0020] MVKSHIGSWILVLFVVAMWSDVGLCKKRPKPGGGWNTGGSRYPGO-44

[0021] GSPGGNRYPPQGGGGWGQPHGGGWGQPHGGGWGQPHGGGQGQP-87

[0022] GGGGWGOGGSHSOWNKPSKPPKTNMKHVAGAAAGAVVGGLGGY-131

[0023] MLGSAMSSPLIHFGNDYEDRYTRENMYRYPNQVYYRPVDRYSNQNN-177

[0024] More particularly preferred are antibodies raised against the underlined sequences shown above.

[0025] The antibody used in the assay is preferably a C5 antibody to PrP^(SC) which is available from Proteus, England, called herein the differentiation reagent. Other anti-PrP^(SC) antibodies are also suitable for use in the invention. Suitable antibodies are those directed against the synthetic peptides disclosed in WO 93/11115.

[0026] The immunological assay may be a competitive assay in which a solid support, suitably a microtitre plate, is pre-coated with a carrier protein-peptide conjugate, the animal tissue sample and an anti-peptide antibody are added to the solid support, allowed to react and the support washed, a labelled anti-(anti-peptide antibody) antibody is added, allowed to react, washed a signal reagent added and the signal read. The label may be horseradish peroxidase.

[0027] The primary antibody used in the assay is preferably a rabbit anti-P^(r)P^(SC) antibody and the secondary antibody is preferably selected from a goat, sheep, donkey or other anti-rabbit antibody.

[0028] In a particular embodiment an ELISA assay can be used to identify the peptide fragment for PrP^(SC) but other suitable immunological assays could be used.

[0029] In a preferred embodiment an enhanced chemiluminescence assay is ease to aid in detection of the PrP^(SC) agent. The animals may suitably be cattle, sheep and pigs and the tissue sample may suitably be taken from a carcass or such animals.

[0030] The steps involved are:

[0031] 1. Clean up of nervous tissue to allow detection of putative agent for PrP^(SC) (the rogue prion protein believed responsible for Spongiform Encephalopathies);

[0032] 2. Assay priming step involving addition of specific agents (antibodies);

[0033] 3. ELISA using wells pre-coated with peptide fragment for PrP^(SC);

[0034] 4. Enhanced chemiluminescence assay for detection of PrP^(SC) agent; and

[0035] 5. Determination of results.

[0036] In particular the assay involves assay for the PrP^(SC) protein which is the infective prion protein found in BSE. The assay is capable of distinguishing between PrP^(SC) and PrP^(SC) which is the normal BSE prion protein. The PrP^(SC) protein is a series of peptides in a triple helix whereas in PrP^(SC) one third of the molecule is in the form of a flat beta-sheet.

[0037] It is particularly important that the assay can discriminate between natural PrP^(C) and PrP^(SC) since PrP^(C) is found in normal subjects while both PrP^(c) and PrP^(SC) are found in diseased subjects.

[0038] In a particularly preferred embodiment, a sample of CNS tissue, suitably a cross-section of spinal cord, is removed from an animal carcass, homogenised, filtered and plated onto a microtitre tray. The sample is then reacted in an immunological assay with an antibody as described above.

[0039] The invention also provides a test kit for the detection of TSE in animals comprising an anti-peptide antibody as defined above.

[0040] The method allows the rapid detection of a TSE agent in a carcass, with results being available in a matter of hours, usually about one and a half to two hours. Thus the carcass can be removed from the abattoir before passing into the human food chain.

DETAILED DESCRIPTION OFF THE INVENTION

[0041] The invention will now be described in greater detail with reference to the Examples.

[0042] The requirements for the Enfer TSE immunoassay are as follows:

[0043] a) A sample of CNS tissue

[0044] b) A series of preparative sample treatments

[0045] c) A prion specific antibody

[0046] d) Sensitive method of detection

[0047] a) A sample of CNS tissue is removed from a beef carcass at the point of slaughter using a specialised sampling clavical (available from Medisteel, Dublin, Ireland). This tissue sample must be such that a cross-section of spinal cord can be removed from the sample for confirmatory analysis if necessary. The sample is placed in a universal container and is identified with a traceable identification number i.e. an EU 4 digit carcass number, an Irish Department of Agriculture ear-tag number or a traceable factory kill number. The sample is transported to the laboratory for testing.

[0048] b) On reaching the laboratory the sample is identified using barcodes. The barcode assigned to each sample incorporates information on the factory of origin of the sample, the date the animal is killed and a traceable identification sample number. An amount of each sample, ranging in weight from 0.30 to 1-1g, is removed and placed into a stomacher bag for homogenisation. This bag containing a section of the original sample will be assigned an identical barcode to the original sample. This allows full traceability throughout the system. A fixer volume of Homogenising Buffer is added to the stomacher bag and the sample homogenised. The sample is then dispensed in duplicate onto a prepared 96 well microtitre plate. A fixed volume of Differential Buffer is applied to the microtitre plate and incubated. A fixed volume of Priming Buffer is then added to the samples on the plate and incubated. This step completes the sample preparation procedure.

[0049] c) The samples are now ready for immunoassay. This requires a prion specific antibody. This antibody is raised in rabbits to a synthetic prion peptide. A fixed volume of this specific antibody is added to the microtitre plate, incubated and washed. A fixed volume of secondary antibody is added to the plate, incubated and washed. Detection of results is now possible.

[0050] d) Detection of results is by means of Enhanced Chemiluminescence. A fixed volume of a chemiluminescence reagent is added to the microtitre plate and incubated. The light signal is read using a Labsystems Chemiluminometer, the results assigned to the corresponding barcode and a results report printed.

EXAMPLE 1 REAGENTS REAGENTS FOR HOMOGENISATION OF SAMPLES

[0051] Enfer Homogenisation Buffer (HB)

[0052] Reverse Osmosis Water

[0053] Differentiation Reagent

[0054] Positive Control

[0055] Negative Control

[0056] Enfer Immunoassay Priming Buffer (IPB)

REAGENTS FOR THE IMMUNOASSAY PROCEDURE

[0057] 1.5 M Phosphate Buffered Saline (PBS)

[0058] 150M Phosphate Buffered Saline (PBS)/Tween 20 (0.05%)

[0059] Sodium Chloride Solution (NaCl)

[0060] Rabbit Anti-PrP peptide in 150 mM PBS/Tween 20 (0.05%) diluted as instructed by the supplier

[0061] Normal Goat Serum

[0062] Donkey Anti-Rabbit lgG-Horse Radish Peroxidase canjugate in 150 mM PBS/Tween 20 10.0%) diluted as instructed by the supplier Amerlite Reagent™ Johnson & Johnson Clinical diagnostics

EQUIPMENT

[0063] Bar-code reader and computer database interface

[0064] Bar-code label printer

[0065] Rotating (bottle) mixer

[0066] 96 well microtitration plate chemiluminescence reader

[0067] 96 well microtitration plate shaking incubator (2)

[0068] 96 well microtitration plate washer (2)

[0069] Micro-computer

[0070] Laser printer

[0071] Micro-computer ‘custom’ software—data processing and reporting

[0072] Deep Freeze Storage −20° C.

[0073] Refrigerated Storage 4° C.

[0074] Reverse Osmosis Water System

[0075] Automated 8 channel pipettes

[0076] Automated microtitre plate strip dispenser

[0077] Vortex Mixer

[0078] Disposable Pasteur pipettes

[0079] Stomacher homogeniser and bags (variable quantity)

[0080] Blades

[0081] Secure sample boxes and transport trailers

[0082] Class II Safety Cabinet system

[0083] Autoclave

SAMPLES AND SAMPLING PROCEDURE

[0084] The sample shall be such as to enable the detection of PrP^(SC) protein in spinal chord.

[0085] The size of the sample will be sufficient to permit the primary analysis and if necessary, a repeat or confirmatory analysis to be carried out.

[0086] Samples will be taken in a manner which will ensure that a fixed amount of issue will be taken for each sample.

[0087] Samples will be taken in a manner which will permit identification of the sample in the laboratory.

[0088] The method of packaging, preservation and transport to the laboratory and maintain the integrity of the sample such that the results of the analysis is not prejudiced.

[0089] Samples for analysis will be transported to the laboratory, in insulated and sealed containers.

PROCEDURE HOMOGENISATION AND PREPARATION OF TISSUE

[0090] 7.5 ml Homogenisation Buffer (HB) is added to each sample.

[0091] The sample is sealed and placed in the homogeniser, homogenise for 3 minutes.

[0092] Remove the sample from the homogeniser and after accumulation of 40 samples, place the samples onto a designated rack.

[0093] Apply 0.02 ml differentiation reagent to each well of the pre-coated microtitre plate except wells A1, A2.

[0094] Transfer, in order, the identification bar-code of each sample to the microcomputer with a bar-code scanner.

[0095] Apply 0.8 ml of sample to each well except A1, A2, A3, A4 (controls).

[0096] Cover the plate with a microtitre plate sealer.

[0097] Incubate the microtitre plate for I hour at 37° C., shaking.

[0098] Wash the microtitre plate wells 8x with 0.4 ml NaCl solution.

[0099] Dispense 0.25 ml of the Immunoassay Priming Buffer to each well.

[0100] Incubate the microtitre plate for 15 minutes at 37° C., shaking.

[0101] Wash tie microtitre plate wells 4x with 0.4 ml PBS/Tween 20 (0.05%) solution.

[0102] CHEMILUMINESCENT IMMUNOASSAY

[0103] Dispense 0.2ml primary antibody into each well of the microtitration plate

[0104] Incubate the microtitration plate for 40minutes, with shaking, at 37° C.

[0105] Wash the microtitration, plate wells 4x with 0.4m of PBS/Tween 20 (0.05%) solution.

[0106] Dispense 0.2ml secondary antibody into each well of the microtitration plate.

[0107] Incubate the microtitration plate for 30 minutes with shaking, at 37° C.

[0108] Dispense 0.15 ml Amerlite™ reagent into each well of the microtitration plate.

[0109] Incubate the microtitration plate for 3 minutes, with shaking, at 37° C.

[0110] Read the luminescence in the reader.

[0111] Data reduction and interpretation.

CALCULATION OF RESULTS N/A ANTIBODIES, HOMOGENISATION BUFFER, IMMUNOASSAY PRIMING BUFFER, QUALITY CONTROLS ANTIBODIES

[0112] rabbit Anti-PrP peptide, stored frozen and diluted to working strength as instructed by the supplier.

[0113] donkey Anti-Rabbit IgG-Horse Radish Peroxidase (HRP) conjugate, stored at 4° C., to be diluted as instructed by the supplier.

[0114] normal goat serum, stored at 4° C., to be diluted as appropriate.

QUALITY CONTROLS

[0115] Supplied by veterinary Research Laboratories, Abbotstown, Dublin.

SOURCE OF ALL REAGENTS

[0116] Enfer Scientific Ltd. Co. Tipperary, Ireland.

EXAMPLE 2 1. Homogenisation

[0117] 1.1 1g of CNS tissue is removed from the sample and placed in a stomacher bag.

[0118] 1.2 15 ml of Homogenising Buffer is added to the section.

[0119] 1.3 This mixture is homogenise for 3 minutes using a stomacher homogeniser.

[0120] 1.4 The resultant homogenate is filtered through a 1 micron filter.

2. Plating

[0121] 2.1 96-well microtitre plate is prepared by dispensing 200 ul of Adhering Agent into each well and incubating overnight at 37° C.

[0122] 2.2 Wash the plate 4XPBST (5 x Phosphate Buffered Saline tablets, supplied by Sigma, U.K., to 1 litre reverse osmosis H₂O/1% Tween 20) (150mM) before use.

[0123] 2.3 200 ul of blank control (such as water, saline solution or buffer) is dispensed in duplicate onto the plate, positions A1,2.

[0124] 2.4 200 ul of negative control (known negative BSE homogenate) is dispensed—4 replicates —onto the plate, positions B1.2 C1.2. The known negative BSE homogenate is supplied by the Veterinary Research Laboratory, Abbotstown, Castleknock, Dublin, Ireland.

[0125] 2.5 200 ul of positive control (known positive BSE homogenate, available from the Veterinary Research Laboratory, Abbotstown, Castleknock, Dublin, Ireland) is dispensed—4 replicates—onto the plate, positions D1,2 E1,2.

[0126] 2.6 200 ul of each filtered homogenate is dispensed in duplicate onto the plate, remaining positions.

[0127] 2.7 50 ul of Differential Buffer is dispensed onto the plate bringing the well volume to 250 ul.

[0128] 2.8 The plate is covered with a microtitre plate sealer and incubates at 20° C. for 30 minutes.

[0129] 2.9 The elate is centrifuged for 30 minutes at 2000 rpm.

[0130] 2.10 The plate is then washed 4 times with 150 mM PBST.

[0131] 2.11 50 ul of Priming Buffer are added to each well of the microtitre plate and the plate incubated for 1 hour at 37° C.

[0132] 2.12 The plate is washed 4 times with 150 mM PBST.

3 Immunoassay

[0133] 3.1 250 ul of primary prion specific antibody, a rabbit anti-Prion peptide antibody at a dilution of 1:2000, is dispensed onto the plate.

[0134] 3.2 The plate is incubated at room temperature for 40 minutes.

[0135] 3.3 The plate is washed 4 times with 150 mM PBST.

[0136] 3.4 250 ul of secondary antibody, a donkey-anti-rabbit HRP at a dilution of 1:2000 is dispensed onto the plate and the plate incubated at 37° C. for 30 minutes.

[0137] 3.5 The plate is washed 4 times with 150 mM PBST.

4. Detection

[0138] 4.1 250 ul of Enhanced Chemiluminescent reagent (amerlite reagent, supplied by Johnson & Johnson Clinical Diagnostics, U.K.) is added to the plate.

[0139] 4.2 The plate is incubated at room temperature for 10 minutes.

[0140] 4.3 The light signal is read using a Labsystems Chemiluminometer (supplied by Medical Supply Co., Dublin, Ireland), which is a scanning wavelength reader. The device reads the luminescence from each well of the plate by scanning the entire IR-visible-UV spectra and extrapolating results.

[0141] 4.4 The light signals from the plate are transferred to a customised software package (available from G.K.S. Software, Dublin, Ireland).

[0142] 4.5 Each light signal is assigned to a corresponding barcode and report printed.

[0143] 4.6 Results are quoted in chemiluminescent light unit L.U.

SOURCE OF REAGENTS

[0144] 1. Plate Adhering Agent, Homogenising Buffer, Priming Buffer and Differential Buffer are supplied by Enfer Products Ltd.

[0145] 2. Prion Specific Antibodies—anti-PrP—are supplied by Enfer Products and are rabbit antibodies raised to the following synthetic prion peptides.

PRION SEQUENCE N-TERMINAL

[0146] MVKSHIGSWILVLFVVAMWSDVGLCKKRPKPGGGWNTGGSRYPGO-44

[0147] GSPGGNRYPPQGGGGWGQPHGGGWGQPHGGGWGQPHGGGQGQP-87

[0148] GGGGWGQGGSHSQWNKPSKPPKTNMKHVAGAAAGAVVGGLSGY-131

[0149] MLGSAMSSPLIHFGNDYEDRYTRENMYRYPNQVYYRPVDRYSNQNN-177

[0150] All the sequences used herein are given using standard I.U.P.A.C. three letter code abbreviations for amino acid residues to find as follows:

[0151] A-Alanine, C-Cysteine, D-Aspartic acid, E-Glutamic acid,

[0152] F-Phenylalanine, G-Glycine, H-Histidine, I-Isoleucine,

[0153] K-Lysine, L-Leucine, M-Methionine, N-Asparamine, P-Proline,

[0154] O-Glutamine, R-Arginine, S-Serine, T-Threonine, V-valine, W-Tryptophan and Y-Tyrosine.

[0155] Both underlined sequences, (a 34 amino-acid peptide and a 40 amino acid peptide) are used to raise rabbit anti-PrP antibodies. The peptides are conjugated to activated ovalbumin and injected intra-muscularly in Freund's Complete Adjuvant. Booster injections are sub-cutaneous and Freund's Incomplete Adjuvant is used. The rabbits are bled at 30 days.

[0156] 3. Chemiluminescent reagent is supplied by Johnson and Johnson Clinical Diagnostics, U.K. and results are read using a Labsystems Chemiluminometer.

EXAMPLE 3 VALIDATION DATA

[0157] 1. INTER-ASSAY VARIATION

[0158] Data generated on a positive control and a negative control, in a total of 10 assays are provided in Table 1. These controls have been deemed positive and negative by two unrelated methods—histology (HIS) and immunohistochemistry (ICC), methods which will ultimately be used to confirm results reported using the Enfer test. The inter-assay variations based on these two samples are 19% for the positive control and 93% for the negative control. These data indicate that the assay has acceptable reproducibility. Another control was also included in this study. This was a peptide control which allows study of the variation between assays due to antibody differences from day to day. These data are included in Table 1. Again the inter-assay variation at 14% is satisfactory.

2. INTRA-ASSAY VARIATION

[0159] The intra-assay variation was determined using the same type controls as those used for the inter-assay study (positive, negative and peptide) and placing 23 replicates of each control on a single plate. Data generated on these controls are provided in Table 2 showing 9% variation for the positive control. 11% for the peptide control and 57% for the negative control.

3. STABILITY STUDIES

[0160] A number of stability studies were carried out for the purpose of this validation:

(a) HOMOGENATE STABILITY

[0161] In this case a sample was homogenised and divided into aliquots. Over a seven day period, the same homogenate was tested on four occasions using aliquots stored at −20° C., 2-8° C., and on two occasions using aliquots stored at room temperature and 37° C. The results, outlined in Table 3 show that the light signal is stable, flowing for inter-assay variation, over this period with storage conditions of −20° C. with some deterioration at 2-8° C., room temperature and 37° C.

(b) STABILITY OF HOMOGENISING BUFFER (HB)

[0162] This study was set up to determine the expiry date of homogenising buffer for production purposes. A similar protocol to that outlined in (a) above was followed with the results provided in Table 4. Again the results show that the HB is stable for use.

(c) STABILITY OF PRIMARY ANTIBODY—WORKING STRENGTH

[0163] Undiluted antibody can be stored frozen for an indefinite length of time. However antibody diluted to working strength using PBS/Tween 20 (0.05%) is not as stable as concentrated antibody and a stability study was therefore carried out. Antibody dilutions of 1:1K were made on 9 occasions over a 72 day period. On the final day of the study, each of the 9 preparations was applied to an antigen coated plate and an ELISA carried out. The results are presented in Table 5 and from these data it can be seen that the working strength antibody is stable for at least a 70 day period.

(d) STABILITY OF SAMPLE IN HOMOGENISING BUFFER BEFORE HOMOGENISATION

[0164] This stability test was carried out to ensure that the assay would not be affected if some factor resulted in a delay in homogenising the sample after the MB had been added. Homogenising buffer was added to a sample in the ratio of 1 g of brain to 15ml of buffer and the mixture left at room temperature overnight (15 hours). The sample was homogenised after this time and an immunoassay carried out. The results are shown in Table 6 (−2 samples tested one without and one with a delay). The treatment made no difference to the eventual result. TABLE I Inter-assay variation data, generated on a single positive and negative control sample, in 10 assays Assay ‘Neg’ ‘Pos’ Peptide Number Blank Control Control Control 1 2 4 30834 110524 day 1 2 2 13 33789 105242 day 1 3 2 12 35319 104293 day 1 4 15 23 32533 101277 day 2 5 13 15 35424 114081 day 2 6 17 15 31749 124122 day 3 7 28 50 22732 146110 day 3 8 7 13 29143 114355 day 4 9 18 22 28565 111084 day 4 10 13 12 36213 100920 day 4 Blank ‘Neg’ Control ‘Pos’ Control Peptide Control Mean = 11 Mean = 16 Mean = 31927 Mean = 111691 SD = 10 SD = 15 SD =  5954 SD =  15331 CV = 91% CV = 93% CV =   19% CV =   14% n = 46 n = 51 n =   51 n =   42

[0165] TABLE 2 Intra-assay variation data, generated on a single positive and negative control sample, 23 replicates of each on a single plate Replicate ‘Neg’ ‘Pos’ Peptide Number Blank Control Control Control 1 34 69 19857 96632 2 49 34 17738 95999 3 22 39 18354 112017 4 29 87 19645 121987 5 38 33 18975 119077 6 51 149 19828 118386 7 34 32 16466 103699 8 38 40 18259 106592 9 24 16 19840 119148 10 32 155 22813 101386 11 26 20 23004 88538 12 17 84 22153 99612 13 57 46 21880 99803 14 32 28 21722 92699 15 25 30 21069 117642 16 57 137 18524 82359 17 18 41 19644 88442 18 45 46 22478 97731 19 15 162 21596 92286 20 20 34 22438 115472 21 13 21 21661 118239 22 33 21 20113 97596 23 19 13 20007 93713 Blank ‘Neg’ Control ‘Pos’ Control Peptide Control Mean = 32 Mean = 72 Mean = 20351 Mean = 104742 SD = 13 SD = 41 SD =  1753 SD =  11601 CV = 41% CV = 57% CV =   90% CV =   11% n = 23 n = 23 n =   23 n =   23

[0166] TABLE 3 Homogenate Stability Study - mean of 3 replicates at each temperature Day −20° C. 2-8° C. RT 37° C. POSITIVE CONTROL 0 2 1073 449 664 205 3 1162 413 — — 5 2025 887 — — 7 1661 1198 709 472 30 90 180 NEGATIVE CONTROL 0 39 2 10 15 6 6 3 9 12 — — 5 17 37 — — 7 20 31 10 11 30 90 180

[0167] TABLE 4 Homogenixing Buffer Stability - mean of 3 replicates at each temperature Day −20° C. 2-8° C. RT 37° C. POSITIVE CONTROL 0 24719 2 53526 61248 42873 47088 3 — 31593 24762 — 7 32420 34457 36337 35010 30 60 180 NEGATIVE CONTROL 0 37 2 4 6 3 4 3 — 9 9 — 7 14 16 20 14 30 60 180

[0168] TABLE 5 Primary Antibody Stability Study 1° Antibody SD - 8 % Day Mean Light Signal Replicates CV 1 19849 557 2.8 3 17677 77 0.4 4 21796 340 1.6 9 18283 218 1.2 23 16805 282 1.7 25 21285 377 1.8 30 21059 427 2.0 42 18339 353 1.9 72 17774 511 2.9

[0169] TABLE 6 Study of sample stability in HB for a 15 hour period before hemogenising Sample I.D. Hours before homogenisation Mean Result (LU) 79 0 73233 POS 15 72578 80 0 18 NEG 15 38

[0170]

1 4 45 amino acid unknown Amino acid 1 Met Val Lys Ser His Ile Gly Ser Trp Ile Leu Val Leu 1 5 10 Phe Val Val Ala Met Trp Ser Asp Val Gly Leu Cys Lys 15 20 25 Lys Arg Pro Lys Pro Gly Gly Gly Trp Asn Thr Gly Gly 30 35 Ser Arg Tyr Pro Gly Xaa 40 45 43 amino acid unknown Amino acid 2 Gly Ser Pro Gly Gly Asn Arg Tyr Pro Pro Gln Gly Gly 1 5 10 Gly Gly Trp Gly Gln Pro His Gly Gly Gly Trp Gly Gln 15 20 25 Pro His Gly Gly Gly Trp Gly Gln Pro His Gly Gly Gly 30 35 Gln Gly Gln Pro 40 43 amino acid unknown Amino acid 3 Gly Gly Gly Gly Trp Gly Gln Gly Gly Ser His Ser 1 5 10 Gln Trp Asn Lys Pro Ser Lys Pro Pro Lys Thr Asn Met 15 20 25 Lys His Val Ala Gly Ala Ala Ala Gly Ala Val Val Gly 30 35 Gly Leu Gly Gly Tyr 40 46 amino acid unknown amino acid 4 Met Leu Gly Ser Ala Met Ser Ser Pro Leu Ile His Phe 1 5 10 Gly Asn Asp Tyr Glu Asp Arg Tyr Thr Arg Glu Asn Met 15 20 25 Tyr Arg Tyr Pro Asn Gln Val Tyr Tyr Arg Pro Val Asp 30 35 Arg Tyr Ser Asn Gln Asn Asn 40 45 

1. A method for detecting the putative agent for TSE in animals comprising taking a body tissue sample from an animal, reacting the sample in a immunological assay with a labelled antibody which is capable of reacting with PrP^(SC) and determining the amount of labelled antibody bound to the sample.
 2. A method as claimed in claim 1 wherein the antibody used in the assay is raised against a synthetic peptide sequence having the general formula: X-(R₁-Lys-His-R₂)-Ala-Gly-Ala-Ala-Ara-R₃-Gly-Ala-Val-Val-Gly-Gly-Ley-Gly-Gly-Tyr-Met-Leu-Gly-Ser-Ala-Met-Ser-(Arg-Pro-R₄-R₅)-y wherein R₁ is an amino acid residue selected from Met, Leu and Phe; R₂ is either Met or Val; R₃ is Ala or is absent; R₄ and R₅ are independently an amino acid residue selected from Leu, Ile and Met; one or more residues within brackets maybe present or absent with the provisio that if they are present they are attached to the rest of the peptide in sequence; and X and Y may each independently be absent or independently be one or more additional amino acid residues.
 3. A method as claimed in any preceding claim wherein the antibodies are prion specific antibodies raised against one or more of the following sequences: MVKSIGSWILVLFVVAMWSDVGLCKKRPKPGGGINTGGSRYPGO-44 GSPGGNRYPPOGGGGWGQPHGGGWGQPHGGGWGQPHGGGQGQP-87 GGGGWGOGGSHSOWNKPSKPPKTNMKHVAGAAAGAVVGGLGGY-131 MLGSAMSSPLIHFGNDYEDRYTRENMYRYPNOVYYRPVDRYSNQNN-177.
 4. A method as claimed in claim 3 wherein the antibodies are antibodies raised against the underlined sequences shown in claim 3 .
 5. A method as claimed in any preceding claim wherein the immunological assay may be a competitive assay in which a solid support, suitably a microtitre plate, is pre-coated with a carrier protein-peptide conjugate, the animal tissue sample and an anti-peptide antibody are added to the solid support, allowed to react and the support washed a labelled anti-(anti-peptide antibody) antibody is added allowed to react, washed, a signal reagent added and the signal read.
 6. The method as claimed in any preceding claim wherein the animals are selected from cattle, sheep and pigs and the tissue sample is taken from a carcass of such animals.
 7. A method as claimed in any preceding claim wherein a sample of CNS tissue, suitably a cross-section of spinal cord, is used for testing.
 8. A test kit for the detection of TSE in animals comprising an anti-peptide antibody raised against a synthetic peptide sequence having the general formula: ti X-(R₁-Lys-His-R₂)-Ala-Gly-Ala-Ala-Ala-R₃-Gly-Ala-Val-Val-Gly-Gly-Leu-Gly-Gly-Tyr-Met-Leu-Gly-Ser-Ala-Met-Ser-(Arg-Pro-R₄-R₅)-Y wherein R₁ is an amino acid residue selected from Met, Leu and Phe; R₂ is either Met or Val; R₃ is Ala or is absent; R₄ and R₅ are independently an amino acid residue selected from Leu, Ile and Met; one or more residues within brackets maybe present or absent with the provisio that if they are present they are attached to the rest of the peptide in sequence; and X and Y may each independently be absent or independently be one or more additional amino acid residues. 